Dual Targeting of Histone Deacetylase and Topoisomerase II with Novel Bifunctional Inhibitors

Guerrant, William; Patil, Vishal; Canzoneri, Joshua C.; Oyelere, Adegboyega K.

doi:10.1021/jm200799p

Cited by 130 publications

(83 citation statements)

References 68 publications

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“…Research supported the fact that topoisomerase I and HDAC inhibitors act synergistically promoting apoptosis in the cancer cells (Johnson et al, 2001;Marchion et al, 2004;Tsai et al, 2000) and both these inhibitors have been found to be concentrated in the nucleus to a higher therapeutic level (Chauhan and Kumar, 2013;Guerrant et al, 2012). On the similar lines, Guerrant et al evaluated and synthesized dual inhibitors (Fig.…”

Section: Figmentioning

confidence: 90%

A review on pharmacophoric designs of antiproliferative agents

et al. 2014

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Section: Figmentioning

confidence: 90%

A review on pharmacophoric designs of antiproliferative agents

et al. 2014

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“…Based on the therapeutic relevance of anthracyclines and on the synergistic antitumour effects of topo II and HDAC inhibitors, derivatives of daunorubicin linked to SAHA were designed as bifunctional agents [25]. Compounds of this series (7) exhibit cytotoxic activity comparable to daunorubicin, in spite of the in vitro inhibitory activity towards HDAC1 and HDAC6 similar to SAHA.…”

Section: Hybrid Compounds Incorporating Cytotoxic Moieties and Hdac Imentioning

confidence: 99%

“…Platinum(IV) complexes [50] were designed as dual-targeting prodrugs following the introduction of the vitamin E analogue, atocopherol succinate (a-TOS), as the axial ligand(s) of platinum(IV) (25). In this conjugate the platinum is expected to cause DNA damage, while a-TOS disrupts Bcl-xL-Bax interactions leading to mitochondrial dysfunction, thus enhancing the intrinsic mitochondria-mediated pathway of apotosis activated by DNA damage.…”

Section: Bifunctional Agents With Cleavable Linkersmentioning

confidence: 99%

Perspectives in the development of hybrid bifunctional antitumour agents

Musso

Dallavalle

Zunino

2015

Biochemical Pharmacology

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In spite of the development of a large number of novel target-specific antitumour agents, the single-agent therapy is in general not able to provide an effective durable control of the malignant process. The limited efficacy of the available agents (both conventional cytotoxic and novel target-specific) reflects not only the expression of defence mechanisms, but also the complexity of tumour cell alterations and the redundancy of survival pathways, thus resulting in tumour cell ability to survive under stress conditions. A well-established strategy to improve the efficacy of antitumour therapy is the rational design of drug combinations aimed at achieving synergistic effects and overcoming drug resistance. An alternative strategy could be the use of agents designed to inhibit simultaneously multiple cellular targets relevant to tumour growth/survival. Among these novel agents are hybrid bifunctional drugs, i.e. compounds resulting by conjugation of different drugs or containing the pharmocophores of different drugs. This strategy has been pursued using various conventional or target-specific agents (with DNA damaging agents and histone deacetylase inhibitors as the most exploited compounds). A critical overview of the most representative compounds is provided with emphasis on the HDAC inhibitor-based hybrid agents. In spite of some promising results, the actual pharmacological advantages of the hybrid agents remain to be defined. This commentary summarizes the recent advances in this field and highlights the pharmacological basis for a rational design of hybrid bifunctional agents.

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“…They found that many of these hybrid compounds more potently inhibited HDAC and Topo II activities compared to SAHA and daunomycin --standard HDACi and Topo II inhibitors, respectively. Additionally, a subset of these compounds exhibited potent whole-cell anti-proliferative activities against representative cancer cell lines [13]. More recently, the same group designed and synthesised dual-acting topoisomerase I (Topo I)--HDAC inhibitors, which displayed potent antiproliferative activity as well [14].…”

Section: Introductionmentioning

confidence: 99%

Histone deacetylases inhibitors: conjugation to other anti-tumour pharmacophores provides novel tools for cancer treatment

Papavassiliou

2013

Expert Opinion on Investigational Drugs

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Histone deacetylases (HDACs) are involved in the removal of acetyl groups from intracellular proteins. The catalytic activity of HDACs plays a major role in numerous biological processes, including cell-cycle regulation, cell proliferation and apoptosis. Importantly, tumour development and progression have been associated with altered expression and mutations of genes that encode members of the HDAC family. This family comprises at least 18 enzymes that are responsible for the post-translational deacetylation of several histone and non-histone proteins. HDACs hold a place among the most promising therapeutic targets for the treatment of cancer and there are growing efforts to optimise HDAC inhibition therapy. The authors believe that there is the need for an innovative pharmacological strategy, if the field wants to significantly ameliorate the current shortcomings of the current cancer therapies, in particular, perhaps a strategy that focuses on developing single HDAC inhibitor-based compounds, which can modulate the functions of additional intracellular oncogenic targets via conjugation to other anti-tumour pharmacophores.

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Dual Targeting of Histone Deacetylase and Topoisomerase II with Novel Bifunctional Inhibitors

Cited by 130 publications

References 68 publications

A review on pharmacophoric designs of antiproliferative agents

A review on pharmacophoric designs of antiproliferative agents

Perspectives in the development of hybrid bifunctional antitumour agents

Histone deacetylases inhibitors: conjugation to other anti-tumour pharmacophores provides novel tools for cancer treatment

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